| Target Validation Information | |||||
|---|---|---|---|---|---|
| TTD ID | T96144 | ||||
| Target Name | DNA topoisomerase II (TOP2) | ||||
| Type of Target |
Successful |
||||
| Drug Potency against Target | Doxorubicin | Drug Info | IC50 = 66.3 nM | [10] | |
| Gemifloxacin | Drug Info | MIC50 = 0.002 ug/ml | [8] | ||
| Idarubicin | Drug Info | IC50 = 38 nM | [10] | ||
| Novobiocin | Drug Info | IC50 = 10 nM | [11] | ||
| Quinolones | Drug Info | IC50 = 0.2~4 g/ml | [6] | ||
| Garenoxacin | Drug Info | MIC50 = 0.03 ug/ml | [8] | ||
| A-62176 | Drug Info | IC50 = 510 nM | [5] | ||
| DEMETHYLZEYLASTERONE | Drug Info | IC50 = 17600 nM | [2] | ||
| LOSOXANTRONE | Drug Info | IC50 = 7300 nM | [4] | ||
| LUPEOL | Drug Info | IC50 = 10400 nM | [3] | ||
| Olean-12-en-3beta,15alpha-diol | Drug Info | IC50 = 17500 nM | [3] | ||
| PIROXANTRONE | Drug Info | IC50 = 4600 nM | [4] | ||
| TOPOSTATIN | Drug Info | IC50 = 4000 nM | [1] | ||
| Action against Disease Model | Amsacrine | Drug Info | HERG-Lite monitors the expression of hERG at the cell surface in two different stable mammalian cell lines. One cell line acts as a biosensor for drugs that inhibit hERG trafficking, while the other predicts hERG blockers based on their ability to act as pharmacological chaperones. In this study, we have validated the HERG-Lite assay using a panel of 100 drugs: 50 hERG blockers and 50 nonblockers.HERG-Lite correctly predicted hERG risk for all 100 test compounds with no false positives or negatives. All 50 hERG blockers were detected as drugs with hERG risk in the HERG-Lite assay, and fell into two classes: B (for blocker) and C (for complex; block and trafficking inhibition). | [9] | |
| Enoxacin | Drug Info | The in vivo convulsant activities in rats of five representative fluoroquinolones (FQs), norfloxacin, enoxacin, sparfloxacin, fleroxacin, and pefloxacin, were compared. The experimental approach allowed distinction between the drugs' ability to reach the pharmacological receptors at the level of the central nervous system (pharmacokinetic contribution) and their ability to interact with these receptors (pharmacodynamic contribution). The presence of a methyl group on the piperazine moiety decreased the pharmacodynamic contribution to the convulsant activity by severalfold, and the ratios of concentrations of the FQs in cerebrospinal fluid (CSF) to concentrations of unbound FQs in plasma varied from about 5 to 75% as a function of lipophilicity. Interestingly, FQs with the highest intrinsic convulsant activities had the lowest levels of diffusion in CSF and vice versa. This in vivo approach provides information complementary to that of in vitro experiments and should be recommended for early preclinical assessment of a new FQ's epileptogenic risk. | [7] | ||
| Fleroxacin | Drug Info | The in vivo convulsant activities in rats of five representative fluoroquinolones (FQs), norfloxacin, enoxacin, sparfloxacin, fleroxacin, and pefloxacin, were compared. The experimental approach allowed distinction between the drugs' ability to reach the pharmacological receptors at the level of the central nervous system (pharmacokinetic contribution) and their ability to interact with these receptors (pharmacodynamic contribution). The presence of a methyl group on the piperazine moiety decreased the pharmacodynamic contribution to the convulsant activity by severalfold, and the ratios of concentrations of the FQs in cerebrospinal fluid (CSF) to concentrations of unbound FQs in plasma varied from about 5 to 75% as a function of lipophilicity. Interestingly, FQs with the highest intrinsic convulsant activities had the lowest levels of diffusion in CSF and vice versa. This in vivo approach provides information complementary to that of in vitro experiments and should be recommended for early preclinical assessment of a new FQ's epileptogenic risk. | [7] | ||
| Norfloxacin | Drug Info | The in vivo convulsant activities in rats of five representative fluoroquinolones (FQs), norfloxacin, enoxacin, sparfloxacin, fleroxacin, and pefloxacin, were compared. The experimental approach allowed distinction between the drugs' ability to reach the pharmacological receptors at the level of the central nervous system (pharmacokinetic contribution) and their ability to interact with these receptors (pharmacodynamic contribution). The presence of a methyl group on the piperazine moiety decreased the pharmacodynamic contribution to the convulsant activity by severalfold, and the ratios of concentrations of the FQs in cerebrospinal fluid (CSF) to concentrations of unbound FQs in plasma varied from about 5 to 75% as a function of lipophilicity. Interestingly, FQs with the highest intrinsic convulsant activities had the lowest levels of diffusion in CSF and vice versa. This in vivo approach provides information complementary to that of in vitro experiments and should be recommended for early preclinical assessment of a new FQ's epileptogenic risk. | [7] | ||
| Pefloxacin | Drug Info | The in vivo convulsant activities in rats of five representative fluoroquinolones (FQs), norfloxacin, enoxacin, sparfloxacin, fleroxacin, and pefloxacin, were compared. The experimental approach allowed distinction between the drugs' ability to reach the pharmacological receptors at the level of the central nervous system (pharmacokinetic contribution) and their ability to interact with these receptors (pharmacodynamic contribution). The presence of a methyl group on the piperazine moiety decreased the pharmacodynamic contribution to the convulsant activity by severalfold, and the ratios of concentrations of the FQs in cerebrospinal fluid (CSF) to concentrations of unbound FQs in plasma varied from about 5 to 75% as a function of lipophilicity. Interestingly, FQs with the highest intrinsic convulsant activities had the lowest levels of diffusion in CSF and vice versa. This in vivo approach provides information complementary to that of in vitro experiments and should be recommended for early preclinical assessment of a new FQ's epileptogenic risk. | [7] | ||
| Sparfloxacin | Drug Info | The in vivo convulsant activities in rats of five representative fluoroquinolones (FQs), norfloxacin, enoxacin, sparfloxacin, fleroxacin, and pefloxacin, were compared. The experimental approach allowed distinction between the drugs' ability to reach the pharmacological receptors at the level of the central nervous system (pharmacokinetic contribution) and their ability to interact with these receptors (pharmacodynamic contribution). The presence of a methyl group on the piperazine moiety decreased the pharmacodynamic contribution to the convulsant activity by severalfold, and the ratios of concentrations of the FQs in cerebrospinal fluid (CSF) to concentrations of unbound FQs in plasma varied from about 5 to 75% as a function of lipophilicity. Interestingly, FQs with the highest intrinsic convulsant activities had the lowest levels of diffusion in CSF and vice versa. This in vivo approach provides information complementary to that of in vitro experiments and should be recommended for early preclinical assessment of a new FQ's epileptogenic risk. | [7] | ||
| References | |||||
| REF 1 | Isoaurostatin, a novel topoisomerase inhibitor produced by Thermomonospora alba. J Nat Prod. 2001 Feb;64(2):204-7. | ||||
| REF 2 | Catalytic inhibition of topoisomerase IIalpha by demethylzeylasterone, a 6-oxophenolic triterpenoid from Kokoona zeylanica. J Nat Prod. 2001 Oct;64(10):1294-6. | ||||
| REF 3 | Screening of triterpenoids isolated from Phyllanthus flexuosus for DNA topoisomerase inhibitory activity. J Nat Prod. 2001 Dec;64(12):1545-7. | ||||
| REF 4 | The structure-based design, synthesis and biological evaluation of DNA-binding bisintercalating bisanthrapyrazole anticancer compounds. Bioorg Med Chem. 2008 Apr 1;16(7):3959-68. | ||||
| REF 5 | Design of new topoisomerase II inhibitors based upon a quinobenzoxazine self-assembly model. J Med Chem. 1998 Oct 22;41(22):4273-8. | ||||
| REF 6 | The magic bullets and tuberculosis drug targets. Annu Rev Pharmacol Toxicol. 2005;45:529-64. | ||||
| REF 7 | Pharmacokinetic-pharmacodynamic contributions to the convulsant activity of fluoroquinolones in rats. Antimicrob Agents Chemother. 1999 Jun;43(6):1511-5. | ||||
| REF 8 | Novel antibacterial agents for the treatment of serious Gram-positive infections. Expert Opin Investig Drugs. 2003 Mar;12(3):379-99. | ||||
| REF 9 | HERG-Lite: a novel comprehensive high-throughput screen for drug-induced hERG risk. J Pharmacol Toxicol Methods. 2005 Jul-Aug;52(1):136-45. | ||||
| REF 10 | Mechanism of action of key enzymes associated with cancer propagation and their inhibition by various chemotherapeutic agents. Mini Rev Med Chem. 2008 Apr;8(4):388-98. | ||||
| REF 11 | Mode of action of GR122222X, a novel inhibitor of bacterial DNA gyrase. Antimicrob Agents Chemother. 1996 Feb;40(2):473-6. | ||||
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